Release - © 2010 SAS IP, Inc。 All rights reserved。
Table of Contents
1. Analyzing Thermal Phenomena
1。1。 How ANSYS Treats Thermal Modeling
. Convection
1。. Radiation
1.1.3. Special Effects
1。1.4。 Far-Field Elements
。 Types of Thermal Analysis
1。3。 Coupled-Field Analyses
1。4. About GUI Paths and Command Syntax
2。 Steady—State Thermal Analysis
2。1. Available Elements for Thermal Analysis
2.2。 Commands Used in Thermal Analyses
。 Tasks in a Thermal Analysis
2.4。 Building the Model
2。. Using the Surface Effect Elements
.2。 Creating Model Geometry
. Applying Loads and Obtaining the Solution
. Defining the Analysis Type
2。。 Applying Loads
.3。 Using Table and Function Boundary Conditions
. Specifying Load Step Options
2。5.5. General Options
。6. Nonlinear Options
2.5。7。 Output Controls
2。5。8. Defining Analysis Options
2。. Saving the Model
2。。 Solving the Model
. Reviewing Analysis Results
2。6。1. Primary data
2.6.2. Derived data
2。6。3. Reading In Results
。4。 Reviewing Results
2.7. Example of a Steady—State Thermal Analysis (Command or Batch Method)
。1. The Example Described
2.7.2. The Analysis Approach
。 Commands for Building and Solving the Model
。 Performing a Steady-State Thermal Analysis (GUI Method)
2。9。 Performing a Thermal Analysis Using Tabular Boundary Conditions
2。9.1. Running the Sample Problem via Commands
2。. Running the Sample Problem Interactively
. Where to Find Other Examples of Thermal Analysis
3。 Transient Thermal Analysis
3。1. Elements and Commands Used in Transient Thermal Analysis
3。2。 Tasks in a Transient Thermal Analysis
3。3. Building the Model
. Applying Loads and Obtaining a Solution
. Defining the Analysis Type
。2。 Establishing Initial Conditions for Your Analysis
3。4。3. Specifying Load Step Options
3。4。4. Nonlinear Options
3.. Output Controls
3。5. Saving the Model
3。5.1。 Solving the Model
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